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参数资料
| 型号: | NCP5424D |
| 厂商: | ON Semiconductor |
| 文件页数: | 9/18页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM 16-SOIC |
| 产品变化通告: | Product Obsolescence 11/Feb/2009 |
| 标准包装: | 48 |
| PWM 型: | 电流/电压模式,V²? |
| 输出数: | 1 |
| 频率 - 最大: | 750kHz |
| 占空比: | 100% |
| 电源电压: | 10.8 V ~ 13.2 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | 0°C ~ 70°C |
| 封装/外壳: | 16-SOIC(0.154",3.90mm 宽) |
| 包装: | 管件 |
��
�
�NCP5424�
�Out?of?Phase� Synchronization�
�In� out?of?phase� synchronization,� the� turn?on� of� the�
�second� channel� is� delayed� by� half� the� switching� cycle.� This�
�delay� is� supervised� by� the� oscillator,� which� supplies� a� clock�
�signal� to� the� second� channel� which� is� 180� °� out� of� phase� with�
�the� clock� signal� of� the� first� channel.�
�The� advantages� of� out?of?phase� synchronization� are�
�many.� Since� the� input� current� pulses� are� interleaved� with� one�
�another,� the� overlap� time� is� reduced.� The� effect� of� this�
�overlap� reduction� is� to� reduce� the� input� filter� requirement,�
�allowing� the� use� of� smaller� components.� In� addition,� since�
�peak� current� occurs� during� a� shorter� time� period,� emitted�
�EMI� is� also� reduced,� thereby� reducing� shielding�
�requirements.�
�Overvoltage� Protection�
�Overvoltage� Protection� (OVP)� is� provided� as� a� result� of�
�the� normal� operation� of� the� V� 2� control� method� and� requires�
�no� additional� external� components.� The� control� loop�
�responds� to� an� overvoltage� condition� within� 150� ns,� turning�
�off� the� upper� MOSFET� and� disconnecting� the� regulator�
�from� its� input� voltage.� This� results� in� a� crowbar� action� to�
�clamp� the� output� voltage� preventing� damage� to� the� load.� The�
�regulator� remains� in� this� state� until� the� overvoltage�
�condition� ceases.�
�Input� Current� Sharing�
�In� contemporary� high?end� applications,� part� of� a� system�
�may� require� more� power� than� is� available� from� one� supply.�
�The� NCP5424� dual� controller� can� address� this� requirement�
�in� two� ways.�
�In� many� cases,� it� is� sufficient� to� be� able� to� set� the� input�
�power� sharing� as� a� ratio� so� that� one� source� always� supplies�
�a� certain� percentage� of� the� total.� This� is� achieved� by� having�
�the� Error� Amplifier� inputs� from� Slave� side,� Controller� Two,�
�brought� to� external� pins� so� its’� reference� is� available.�
�Current� information� from� the� Master,� Controller� One,�
�provides� a� reference� for� the� Slave.� Current� information� from�
�the� Slave� is� fed� back� to� the� error� amplifier� ’s� inverting� input.�
�The� Slave� will� try� to� adjust� its� current� to� match� the� current�
�information� fed� to� its� reference� input� from� the� Master.� If� this�
�information� is� 1/2� the� voltage� developed� across� the� Master’s�
�output� inductor,� the� Slave� will� run� at� half� current� and� supply�
�a� percentage,� nominally� 33%� in� this� case,� of� the� total� current.�
�In� other� applications� however,� the� user� may� not� only� wish�
�to� draw� a� percentage� of� power� from� one� source,� but� also� may�
�need� to� limit� the� power� drawn� from� that� source.� The� Slave�
�has� a� Cycle?By?Cycle� current� limit.� In� this� case,� the� Slave�
�can� be� programmed� to� budget� the� maximum� input� power.�
�For� example,� a� designer� may� wish� to� draw� equal� amounts� of�
�power� from� two� 5?volt� sources,� but� only� 2� amps� are�
�available� from� one� of� the� supplies.� In� this� case,� the� dual�
�controller� will� draw� equally� from� the� two� sources� up� to� a�
�total� of� 4� amps.� At� this� point,� the� Slave� controller� goes� into�
�current� limit� and� draws� no� more� than� its� preset� budget.� The�
�Master� continues� to� supply� the� remaining� output� current� up�
�to� the� maximum� that� the� application� requires.�
�Current� Limiting�
�The� NCP5424� employs� two� types� of� current� limits.�
�Controller� One� has� a� Hiccup� Mode� Current� Limit� and�
�Controller� Two� has� Cycle?By?Cycle� current� limit.� Any�
�overcurrent� condition� on� Controller� One� results� in� the�
�immediate� shutdown� of� both� output� phases.� In� a� dual� output�
�application,� independent� current� limits� are� not� supported.�
�The� NCP5424� has� two� current� limiting� amplifiers� that�
�have� a� built� in� 70� mV� offset.� These� differential� amplifiers�
�have� a� common� mode� range� from� zero� to� 5.5� volts� and� low�
�input� current.� They� share� a� common� negative� input� that� in�
�single� output� voltage� application� is� not� a� limitation.�
�However� in� dual� output� applications� independent� current�
�limits� are� not� supported.�
�Once� a� voltage� greater� than� 70� mV� is� applied� to� the� current�
�limiting� amplifier� of� Controller� 2;� it� produces� an� output� that,�
�as� shown� in� the� block� diagram,� resets� the� output� RS� flip� flop.�
�This� ends� the� PWM� pulse� for� the� particular� cycle� and� in� so�
�doing,� limits� the� energy� delivered� to� the� load� on� a�
�cycle?by?cycle� basis.� One� advantage� of� this� current� limiting�
�scheme� is� that� the� NCP5424� will� limit� transient� currents� and�
�will� resume� normal� operation� the� cycle� after� the� transient�
�goes� away.�
�A� second� benefit� is� that� this� action� of� limiting� the� PWM�
�pulse� width� means� that� in� an� input� power� sharing�
�application,� one� controller� can� be� current� limiting� while� the�
�other� supplies� the� remaining� current� needs.�
�The� fault� latch� immediately� turns� off� the� error� amplifier�
�and� discharges� both� COMP� capacitors.� The� capacitor�
�connected� to� COMP1� is� discharged� through� a� 5.0� m� A� current�
�sink� in� order� to� provide� timing� for� the� reset� cycle.� When�
�COMP1� has� fallen� below� 0.25� V,� a� comparator� resets� the�
�fault� latch� and� error� amplifier� 1� begins� to� charge� COMP1�
�with� a� 30� m� A� source� current.� When� COMP1� exceeds� the�
�feedback� voltage� plus� the� PWM� Comparator� offset� voltage,�
�the� normal� switching� cycle� will� resume.� If� the� short� circuit�
�condition� persists� through� the� restart� cycle,� the� overcurrent�
�reset� cycle� will� repeat� itself� until� the� short� circuit� is� removed,�
�resulting� in� small� “hiccup”� output� pulses� while� the� COMP�
�capacitor� charges� and� discharges.� Please� see� the� section�
�titled� “Current� Sharing� Compensation� Capacitor� Selection”�
�for� proper� Comp� capacitor� selection.�
�Cycle?By?Cycle� current� limit� controls� the� amount� of�
�current� available� from� Controller� 2.� Controller� 2� has� a�
�current� limiting� comparator� that,� by� truncating� the�
�respective� controller� ’s� PWM� pulse� width,� limits� the�
�available� current� on� a� pulse?by?pulse� basis.� This�
�comparator� has� a� built� in� 70� mV� offset� that� provides� a�
�reference� for� setting� current� limit.�
�Output� Enable�
�On/Off� control� of� the� regulator� outputs� can� be�
�implemented� by� pulling� the� COMP� pins� low.� The� COMP�
�pins� must� be� driven� below� the� 0.40� V� PWM� comparator�
�offset� voltage� in� order� to� disable� the� switching� of� the� GATE�
�drivers.�
�http://onsemi.com�
�9�
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相关代理商/技术参数 |
参数描述 |
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| NCP5424DG | 功能描述:DC/DC 开关控制器 Dual Sync. Buck w/Current Sharing RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| NCP5424DR2 | 功能描述:DC/DC 开关控制器 Dual Sync. Buck RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| NCP5424DR2G | 功能描述:DC/DC 开关控制器 Dual Sync. Buck w/Current Sharing RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
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| NCP5425 | 制造商:ONSEMI 制造商全称:ON Semiconductor 功能描述:Dual Synchronous Buck Controller |
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